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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
* vim: set ts=8 sts=4 et sw=4 tw=99:
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef vm_ObjectGroup_h
#define vm_ObjectGroup_h
#include "jsbytecode.h"
#include "jsfriendapi.h"
#include "ds/IdValuePair.h"
#include "gc/Barrier.h"
#include "js/CharacterEncoding.h"
#include "js/GCHashTable.h"
#include "vm/TaggedProto.h"
#include "vm/TypeInference.h"
namespace js {
class TypeDescr;
class UnboxedLayout;
class PreliminaryObjectArrayWithTemplate;
class TypeNewScript;
class HeapTypeSet;
class AutoClearTypeInferenceStateOnOOM;
class CompilerConstraintList;
namespace gc {
void MergeCompartments(JSCompartment* source, JSCompartment* target);
} // namespace gc
/*
* The NewObjectKind allows an allocation site to specify the type properties
* and lifetime requirements that must be fixed at allocation time.
*/
enum NewObjectKind {
/* This is the default. Most objects are generic. */
GenericObject,
/*
* Singleton objects are treated specially by the type system. This flag
* ensures that the new object is automatically set up correctly as a
* singleton and is allocated in the tenured heap.
*/
SingletonObject,
/*
* CrossCompartmentWrappers use the common Proxy class, but are allowed
* to have nursery lifetime.
*/
NurseryAllocatedProxy,
/*
* Objects which will not benefit from being allocated in the nursery
* (e.g. because they are known to have a long lifetime) may be allocated
* with this kind to place them immediately into the tenured generation.
*/
TenuredObject
};
/*
* Lazy object groups overview.
*
* Object groups which represent at most one JS object are constructed lazily.
* These include groups for native functions, standard classes, scripted
* functions defined at the top level of global/eval scripts, objects which
* dynamically become the prototype of some other object, and in some other
* cases. Typical web workloads often create many windows (and many copies of
* standard natives) and many scripts, with comparatively few non-singleton
* groups.
*
* We can recover the type information for the object from examining it,
* so don't normally track the possible types of its properties as it is
* updated. Property type sets for the object are only constructed when an
* analyzed script attaches constraints to it: the script is querying that
* property off the object or another which delegates to it, and the analysis
* information is sensitive to changes in the property's type. Future changes
* to the property (whether those uncovered by analysis or those occurring
* in the VM) will treat these properties like those of any other object group.
*/
/* Type information about an object accessed by a script. */
class ObjectGroup : public gc::TenuredCell
{
friend void gc::MergeCompartments(JSCompartment* source, JSCompartment* target);
/* Class shared by objects in this group. */
const Class* clasp_;
/* Prototype shared by objects in this group. */
GCPtr<TaggedProto> proto_;
/* Compartment shared by objects in this group. */
JSCompartment* compartment_;
public:
const Class* clasp() const {
return clasp_;
}
void setClasp(const Class* clasp) {
MOZ_ASSERT(JS::StringIsASCII(clasp->name));
clasp_ = clasp;
}
bool hasDynamicPrototype() const {
return proto_.isDynamic();
}
const GCPtr<TaggedProto>& proto() const {
return proto_;
}
GCPtr<TaggedProto>& proto() {
return proto_;
}
void setProto(TaggedProto proto);
void setProtoUnchecked(TaggedProto proto);
bool singleton() const {
return flagsDontCheckGeneration() & OBJECT_FLAG_SINGLETON;
}
bool lazy() const {
bool res = flagsDontCheckGeneration() & OBJECT_FLAG_LAZY_SINGLETON;
MOZ_ASSERT_IF(res, singleton());
return res;
}
JSCompartment* compartment() const { return compartment_; }
JSCompartment* maybeCompartment() const { return compartment(); }
private:
/* Flags for this group. */
ObjectGroupFlags flags_;
// Kinds of addendums which can be attached to ObjectGroups.
enum AddendumKind {
Addendum_None,
// When used by interpreted function, the addendum stores the
// canonical JSFunction object.
Addendum_InterpretedFunction,
// When used by the 'new' group when constructing an interpreted
// function, the addendum stores a TypeNewScript.
Addendum_NewScript,
// For some plain objects, the addendum stores a PreliminaryObjectArrayWithTemplate.
Addendum_PreliminaryObjects,
// When objects in this group have an unboxed representation, the
// addendum stores an UnboxedLayout (which might have a TypeNewScript
// as well, if the group is also constructed using 'new').
Addendum_UnboxedLayout,
// If this group is used by objects that have been converted from an
// unboxed representation and/or have the same allocation kind as such
// objects, the addendum points to that unboxed group.
Addendum_OriginalUnboxedGroup,
// When used by typed objects, the addendum stores a TypeDescr.
Addendum_TypeDescr
};
// If non-null, holds additional information about this object, whose
// format is indicated by the object's addendum kind.
void* addendum_;
void setAddendum(AddendumKind kind, void* addendum, bool writeBarrier = true);
AddendumKind addendumKind() const {
return (AddendumKind)
((flags_ & OBJECT_FLAG_ADDENDUM_MASK) >> OBJECT_FLAG_ADDENDUM_SHIFT);
}
TypeNewScript* newScriptDontCheckGeneration() const {
if (addendumKind() == Addendum_NewScript)
return reinterpret_cast<TypeNewScript*>(addendum_);
return nullptr;
}
TypeNewScript* anyNewScript();
void detachNewScript(bool writeBarrier, ObjectGroup* replacement);
ObjectGroupFlags flagsDontCheckGeneration() const {
return flags_;
}
public:
inline ObjectGroupFlags flags();
inline void addFlags(ObjectGroupFlags flags);
inline void clearFlags(ObjectGroupFlags flags);
inline TypeNewScript* newScript();
void setNewScript(TypeNewScript* newScript) {
setAddendum(Addendum_NewScript, newScript);
}
inline PreliminaryObjectArrayWithTemplate* maybePreliminaryObjects();
PreliminaryObjectArrayWithTemplate* maybePreliminaryObjectsDontCheckGeneration() {
if (addendumKind() == Addendum_PreliminaryObjects)
return reinterpret_cast<PreliminaryObjectArrayWithTemplate*>(addendum_);
return nullptr;
}
void setPreliminaryObjects(PreliminaryObjectArrayWithTemplate* preliminaryObjects) {
setAddendum(Addendum_PreliminaryObjects, preliminaryObjects);
}
void detachPreliminaryObjects() {
MOZ_ASSERT(maybePreliminaryObjectsDontCheckGeneration());
setAddendum(Addendum_None, nullptr);
}
bool hasUnanalyzedPreliminaryObjects() {
return (newScriptDontCheckGeneration() && !newScriptDontCheckGeneration()->analyzed()) ||
maybePreliminaryObjectsDontCheckGeneration();
}
inline UnboxedLayout* maybeUnboxedLayout();
inline UnboxedLayout& unboxedLayout();
UnboxedLayout* maybeUnboxedLayoutDontCheckGeneration() const {
if (addendumKind() == Addendum_UnboxedLayout)
return reinterpret_cast<UnboxedLayout*>(addendum_);
return nullptr;
}
UnboxedLayout& unboxedLayoutDontCheckGeneration() const {
MOZ_ASSERT(addendumKind() == Addendum_UnboxedLayout);
return *maybeUnboxedLayoutDontCheckGeneration();
}
void setUnboxedLayout(UnboxedLayout* layout) {
setAddendum(Addendum_UnboxedLayout, layout);
}
ObjectGroup* maybeOriginalUnboxedGroup() const {
if (addendumKind() == Addendum_OriginalUnboxedGroup)
return reinterpret_cast<ObjectGroup*>(addendum_);
return nullptr;
}
void setOriginalUnboxedGroup(ObjectGroup* group) {
setAddendum(Addendum_OriginalUnboxedGroup, group);
}
TypeDescr* maybeTypeDescr() {
// Note: there is no need to sweep when accessing the type descriptor
// of an object, as it is strongly held and immutable.
if (addendumKind() == Addendum_TypeDescr)
return reinterpret_cast<TypeDescr*>(addendum_);
return nullptr;
}
TypeDescr& typeDescr() {
MOZ_ASSERT(addendumKind() == Addendum_TypeDescr);
return *maybeTypeDescr();
}
void setTypeDescr(TypeDescr* descr) {
setAddendum(Addendum_TypeDescr, descr);
}
JSFunction* maybeInterpretedFunction() {
// Note: as with type descriptors, there is no need to sweep when
// accessing the interpreted function associated with an object.
if (addendumKind() == Addendum_InterpretedFunction)
return reinterpret_cast<JSFunction*>(addendum_);
return nullptr;
}
void setInterpretedFunction(JSFunction* fun) {
setAddendum(Addendum_InterpretedFunction, fun);
}
class Property
{
public:
// Identifier for this property, JSID_VOID for the aggregate integer
// index property, or JSID_EMPTY for properties holding constraints
// listening to changes in the group's state.
GCPtrId id;
// Possible own types for this property.
HeapTypeSet types;
explicit Property(jsid id)
: id(id)
{}
Property(const Property& o)
: id(o.id.get()), types(o.types)
{}
static uint32_t keyBits(jsid id) { return uint32_t(JSID_BITS(id)); }
static jsid getKey(Property* p) { return p->id; }
};
private:
/*
* Properties of this object.
*
* The type sets in the properties of a group describe the possible values
* that can be read out of that property in actual JS objects. In native
* objects, property types account for plain data properties (those with a
* slot and no getter or setter hook) and dense elements. In typed objects
* and unboxed objects, property types account for object and value
* properties and elements in the object, and expando properties in unboxed
* objects.
*
* For accesses on these properties, the correspondence is as follows:
*
* 1. If the group has unknownProperties(), the possible properties and
* value types for associated JSObjects are unknown.
*
* 2. Otherwise, for any |obj| in |group|, and any |id| which is a property
* in |obj|, before obj->getProperty(id) the property in |group| for
* |id| must reflect the result of the getProperty.
*
* There are several exceptions to this:
*
* 1. For properties of global JS objects which are undefined at the point
* where the property was (lazily) generated, the property type set will
* remain empty, and the 'undefined' type will only be added after a
* subsequent assignment or deletion. After these properties have been
* assigned a defined value, the only way they can become undefined
* again is after such an assign or deletion.
*
* 2. Array lengths are special cased by the compiler and VM and are not
* reflected in property types.
*
* 3. In typed objects (but not unboxed objects), the initial values of
* properties (null pointers and undefined values) are not reflected in
* the property types. These values are always possible when reading the
* property.
*
* We establish these by using write barriers on calls to setProperty and
* defineProperty which are on native properties, and on any jitcode which
* might update the property with a new type.
*/
Property** propertySet;
public:
inline ObjectGroup(const Class* clasp, TaggedProto proto, JSCompartment* comp,
ObjectGroupFlags initialFlags);
inline bool hasAnyFlags(ObjectGroupFlags flags);
inline bool hasAllFlags(ObjectGroupFlags flags);
bool hasAllFlagsDontCheckGeneration(ObjectGroupFlags flags) {
MOZ_ASSERT((flags & OBJECT_FLAG_DYNAMIC_MASK) == flags);
return (this->flagsDontCheckGeneration() & flags) == flags;
}
inline bool unknownProperties();
bool unknownPropertiesDontCheckGeneration() {
MOZ_ASSERT_IF(flagsDontCheckGeneration() & OBJECT_FLAG_UNKNOWN_PROPERTIES,
hasAllFlagsDontCheckGeneration(OBJECT_FLAG_DYNAMIC_MASK));
return !!(flagsDontCheckGeneration() & OBJECT_FLAG_UNKNOWN_PROPERTIES);
}
inline bool shouldPreTenure();
gc::InitialHeap initialHeap(CompilerConstraintList* constraints);
inline bool canPreTenure();
inline bool fromAllocationSite();
inline void setShouldPreTenure(ExclusiveContext* cx);
/*
* Get or create a property of this object. Only call this for properties which
* a script accesses explicitly.
*/
inline HeapTypeSet* getProperty(ExclusiveContext* cx, JSObject* obj, jsid id);
/* Get a property only if it already exists. */
inline HeapTypeSet* maybeGetProperty(jsid id);
/*
* Iterate through the group's properties. getPropertyCount overapproximates
* in the hash case (see SET_ARRAY_SIZE in TypeInference-inl.h), and
* getProperty may return nullptr.
*/
inline unsigned getPropertyCount();
inline Property* getProperty(unsigned i);
/* Helpers */
void updateNewPropertyTypes(ExclusiveContext* cx, JSObject* obj, jsid id, HeapTypeSet* types);
void addDefiniteProperties(ExclusiveContext* cx, Shape* shape);
bool matchDefiniteProperties(HandleObject obj);
void markPropertyNonData(ExclusiveContext* cx, JSObject* obj, jsid id);
void markPropertyNonWritable(ExclusiveContext* cx, JSObject* obj, jsid id);
void markStateChange(ExclusiveContext* cx);
void setFlags(ExclusiveContext* cx, ObjectGroupFlags flags);
void markUnknown(ExclusiveContext* cx);
void maybeClearNewScriptOnOOM();
void clearNewScript(ExclusiveContext* cx, ObjectGroup* replacement = nullptr);
void print();
inline void clearProperties();
void traceChildren(JSTracer* trc);
inline bool needsSweep();
inline void maybeSweep(AutoClearTypeInferenceStateOnOOM* oom);
private:
void sweep(AutoClearTypeInferenceStateOnOOM* oom);
uint32_t generation() {
return (flags_ & OBJECT_FLAG_GENERATION_MASK) >> OBJECT_FLAG_GENERATION_SHIFT;
}
public:
void setGeneration(uint32_t generation) {
MOZ_ASSERT(generation <= (OBJECT_FLAG_GENERATION_MASK >> OBJECT_FLAG_GENERATION_SHIFT));
flags_ &= ~OBJECT_FLAG_GENERATION_MASK;
flags_ |= generation << OBJECT_FLAG_GENERATION_SHIFT;
}
size_t sizeOfExcludingThis(mozilla::MallocSizeOf mallocSizeOf) const;
void finalize(FreeOp* fop);
static const JS::TraceKind TraceKind = JS::TraceKind::ObjectGroup;
static inline uint32_t offsetOfClasp() {
return offsetof(ObjectGroup, clasp_);
}
static inline uint32_t offsetOfProto() {
return offsetof(ObjectGroup, proto_);
}
static inline uint32_t offsetOfAddendum() {
return offsetof(ObjectGroup, addendum_);
}
static inline uint32_t offsetOfFlags() {
return offsetof(ObjectGroup, flags_);
}
const ObjectGroupFlags* addressOfFlags() const {
return &flags_;
}
// Get the bit pattern stored in an object's addendum when it has an
// original unboxed group.
static inline int32_t addendumOriginalUnboxedGroupValue() {
return Addendum_OriginalUnboxedGroup << OBJECT_FLAG_ADDENDUM_SHIFT;
}
inline uint32_t basePropertyCount();
private:
inline void setBasePropertyCount(uint32_t count);
static void staticAsserts() {
JS_STATIC_ASSERT(offsetof(ObjectGroup, proto_) == offsetof(js::shadow::ObjectGroup, proto));
}
public:
// Whether to make a deep cloned singleton when cloning fun.
static bool useSingletonForClone(JSFunction* fun);
// Whether to make a singleton when calling 'new' at script/pc.
static bool useSingletonForNewObject(JSContext* cx, JSScript* script, jsbytecode* pc);
// Whether to make a singleton object at an allocation site.
static bool useSingletonForAllocationSite(JSScript* script, jsbytecode* pc,
JSProtoKey key);
static bool useSingletonForAllocationSite(JSScript* script, jsbytecode* pc,
const Class* clasp);
// Static accessors for ObjectGroupCompartment NewTable.
static ObjectGroup* defaultNewGroup(ExclusiveContext* cx, const Class* clasp,
TaggedProto proto,
JSObject* associated = nullptr);
static ObjectGroup* lazySingletonGroup(ExclusiveContext* cx, const Class* clasp,
TaggedProto proto);
static void setDefaultNewGroupUnknown(JSContext* cx, const js::Class* clasp, JS::HandleObject obj);
#ifdef DEBUG
static bool hasDefaultNewGroup(JSObject* proto, const Class* clasp, ObjectGroup* group);
#endif
// Static accessors for ObjectGroupCompartment ArrayObjectTable and PlainObjectTable.
enum class NewArrayKind {
Normal, // Specialize array group based on its element type.
CopyOnWrite, // Make an array with copy-on-write elements.
UnknownIndex // Make an array with an unknown element type.
};
// Create an ArrayObject or UnboxedArrayObject with the specified elements
// and a group specialized for the elements.
static JSObject* newArrayObject(ExclusiveContext* cx, const Value* vp, size_t length,
NewObjectKind newKind,
NewArrayKind arrayKind = NewArrayKind::Normal);
// Create a PlainObject or UnboxedPlainObject with the specified properties
// and a group specialized for those properties.
static JSObject* newPlainObject(ExclusiveContext* cx,
IdValuePair* properties, size_t nproperties,
NewObjectKind newKind);
// Static accessors for ObjectGroupCompartment AllocationSiteTable.
// Get a non-singleton group to use for objects created at the specified
// allocation site.
static ObjectGroup* allocationSiteGroup(JSContext* cx, JSScript* script, jsbytecode* pc,
JSProtoKey key, HandleObject proto = nullptr);
// Get a non-singleton group to use for objects created in a JSNative call.
static ObjectGroup* callingAllocationSiteGroup(JSContext* cx, JSProtoKey key,
HandleObject proto = nullptr);
// Set the group or singleton-ness of an object created for an allocation site.
static bool
setAllocationSiteObjectGroup(JSContext* cx, HandleScript script, jsbytecode* pc,
HandleObject obj, bool singleton);
static ArrayObject* getOrFixupCopyOnWriteObject(JSContext* cx, HandleScript script,
jsbytecode* pc);
static ArrayObject* getCopyOnWriteObject(JSScript* script, jsbytecode* pc);
// Returns false if not found.
static bool findAllocationSite(JSContext* cx, ObjectGroup* group,
JSScript** script, uint32_t* offset);
private:
static ObjectGroup* defaultNewGroup(JSContext* cx, JSProtoKey key);
};
// Structure used to manage the groups in a compartment.
class ObjectGroupCompartment
{
friend class ObjectGroup;
class NewTable;
// Set of default 'new' or lazy groups in the compartment.
NewTable* defaultNewTable;
NewTable* lazyTable;
struct ArrayObjectKey;
using ArrayObjectTable = js::GCRekeyableHashMap<ArrayObjectKey,
ReadBarrieredObjectGroup,
ArrayObjectKey,
SystemAllocPolicy>;
struct PlainObjectKey;
struct PlainObjectEntry;
struct PlainObjectTableSweepPolicy {
static bool needsSweep(PlainObjectKey* key, PlainObjectEntry* entry);
};
using PlainObjectTable = JS::GCHashMap<PlainObjectKey,
PlainObjectEntry,
PlainObjectKey,
SystemAllocPolicy,
PlainObjectTableSweepPolicy>;
// Tables for managing groups common to the contents of large script
// singleton objects and JSON objects. These are vanilla ArrayObjects and
// PlainObjects, so we distinguish the groups of different ones by looking
// at the types of their properties.
//
// All singleton/JSON arrays which have the same prototype, are homogenous
// and of the same element type will share a group. All singleton/JSON
// objects which have the same shape and property types will also share a
// group. We don't try to collate arrays or objects with type mismatches.
ArrayObjectTable* arrayObjectTable;
PlainObjectTable* plainObjectTable;
struct AllocationSiteKey;
class AllocationSiteTable;
// Table for referencing types of objects keyed to an allocation site.
AllocationSiteTable* allocationSiteTable;
public:
struct NewEntry;
ObjectGroupCompartment();
~ObjectGroupCompartment();
void replaceAllocationSiteGroup(JSScript* script, jsbytecode* pc,
JSProtoKey kind, ObjectGroup* group);
void removeDefaultNewGroup(const Class* clasp, TaggedProto proto, JSObject* associated);
void replaceDefaultNewGroup(const Class* clasp, TaggedProto proto, JSObject* associated,
ObjectGroup* group);
static ObjectGroup* makeGroup(ExclusiveContext* cx, const Class* clasp,
Handle<TaggedProto> proto,
ObjectGroupFlags initialFlags = 0);
void addSizeOfExcludingThis(mozilla::MallocSizeOf mallocSizeOf,
size_t* allocationSiteTables,
size_t* arrayGroupTables,
size_t* plainObjectGroupTables,
size_t* compartmentTables);
void clearTables();
void sweep(FreeOp* fop);
#ifdef JSGC_HASH_TABLE_CHECKS
void checkTablesAfterMovingGC() {
checkNewTableAfterMovingGC(defaultNewTable);
checkNewTableAfterMovingGC(lazyTable);
}
#endif
void fixupTablesAfterMovingGC() {
fixupNewTableAfterMovingGC(defaultNewTable);
fixupNewTableAfterMovingGC(lazyTable);
}
private:
#ifdef JSGC_HASH_TABLE_CHECKS
void checkNewTableAfterMovingGC(NewTable* table);
#endif
void fixupNewTableAfterMovingGC(NewTable* table);
};
PlainObject*
NewPlainObjectWithProperties(ExclusiveContext* cx, IdValuePair* properties, size_t nproperties,
NewObjectKind newKind);
bool
CombineArrayElementTypes(ExclusiveContext* cx, JSObject* newObj,
const Value* compare, size_t ncompare);
bool
CombinePlainObjectPropertyTypes(ExclusiveContext* cx, JSObject* newObj,
const Value* compare, size_t ncompare);
} // namespace js
#endif /* vm_ObjectGroup_h */
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